DE484263C - Battery for flashlights with spare elements - Google Patents

Description

Battery for flashlights with spare elements The ones in use so far Standing batteries for flashlights have the disadvantage that their voltage is lower Use gradually but inexorably decreases until tension is reached after a while and thus the light intensity has dropped so far that the battery is used for lighting purposes is practically no longer usable. However, the batteries are not yet complete exhausted, but continue to give electricity, which only red light able to deliver.

The purpose of the present invention is now to the fallen light and make better use of the battery that is not completely depleted. A Another purpose is to create a battery that can be used for different lamps Voltage can be used.

The basic idea of the invention is to increase the light intensity or changing the necessary voltage by connecting or disconnecting a reserve element bring about. As a result of the increase in voltage, for example through connection the original light intensity restored; when used for example of lamps of different voltage becomes the reserve element depending on the amount of required Voltage switched on or off.

The switch-on takes place when the lamp only burns reddish, namely 1e according to the type of possible circuit by attaching or removing one Contact on or from the pole spring or pole leaf of a pole.

The various possible arrangements or circuits of the battery with the reserve element are illustrated in the accompanying drawings. In the examples shown show Fig. i, a flashlight battery, consisting from the three normal elements i to 3, whereby the middle one represents the reserve element: When using the battery, the two edge elements 1, 2 are used, which are connected in series in a known manner. The current is drawn off from the well-known pole leaves - +. An isolated one goes from the + pole of the reserve element Lead wire a to one provided on the inside with an insulating layer b and plug-on contact suitable for plugging onto a normal pole sheet c. The --Pol this reserve element is connected to the + -1.'o1 of the edge element 2. At the The voltage drop from the edge element 1, 2 is used for the purpose of increasing the voltage Reserve element 3 by plugging the plug contact c onto the + pole sheet of the element 2 connected to the battery. The elements are then, as can be seen from the figure, in the order -i, +1, -2; +2, -3. +3 connected in series, and their voltages add up. The current is drawn at -i and +3 (c).

Fig. 2 shows a modified circuit, that is, this circuit is can be used for both options indicated in the introduction. The elements are switched in the order 1, 3, 2 one after the other, i.e. for a lamp with a higher one Voltage usable. The current is drawn off at the two pole leaves - -f-. Shall the voltage for use a lamp with lower If the voltage is reduced, then the one going out from the + pole of the middle element becomes Plug contact c placed on the --- pole sheet of the edge element 2 and so the element 2 switched off from the circuit. Conversely, only the elements i and 3 can be used for plug-in contact c must be in use, and in the event of a voltage drop it will be through Removal of the plug-on contact c the edge element 2, which in this case is the reserve element introduced, switched on to the other two elements.

In Fig. 3, a battery consisting of four shorter commercially available Elements used e.g. B. for an incandescent lamp of 3.5 volts. Here are the elements connected in series in the order i, 2, 3, 4. 4 is the reserve element. For the used incandescent lamp, the adjacent elements i to 3 are connected in series, and the current is drawn off at the pole leaves -and +. In the event of a voltage drop the plug contact c outgoing from +4 is placed on +3 and thus the reserve element, which is arranged horizontally lying under the batteries i to 3, in the order i, 2, 3, 4 put into use.

Fig. 4 shows a circuit in which in order to save wires the elements i, 2, 4 are arranged side by side, the middle element 2 with its + -pole turned downwards the - pole of the under the upper elements horizontally arranged element 3 touches. For connecting the elements in series 3 and 4 then only a very short wire is required. The normal circuit is with plug-in contact -i, + i, -2, -f- 2, -3, + 3, c. In the event of a voltage drop the edge element 4 is switched on by removing the plug contact c and is therefore the circuit - i, + _, - 2, + 2, -3, -h 3, -4, + 4.

Fig. 5 is the circuit using two normal elements r, 2 and two different smaller elements 3 and 4 are shown. This circuit will therefore be used for more precise graduation of the lamp voltage. Normal. are elements i to 3 in use. The 1/4 element below the 3/4 element 3 4 is switched on by placing the plug contact c.

In FIG. 6, the reverse case is shown as in FIG. 5; here becomes the 1/4 element 4, which is intended as a reserve element and above the 94 element 3 is, the three elements i to 3 are switched on by removing the plug contact.

Fig. 7 shows the use of three shorter elements, e.g. B. for a lamp voltage of 2.5 volts. The usage elements i and 2 are arranged upright, the reserve element 3 lying below them. Those who are normally in activity Elements i and 2 are switched off in the event of a voltage drop by placing the plug contact Reserve element 3 added.

FIG. 8 shows a circuit analogous to the circuit according to FIG. 4, where the edge element 3 is switched on as a reserve element by removing the plug contact will.

In order to save wires, the edge element i is overturned arranged and touches with its --- pole the - pole of element 2. The -E- pole This element is connected to the - pole of the upright by a very short wire Reserve element 3 connected.

Figs. G and io show the case where a flashlight of the known shape of a cylinder is used. The elements _, 2, 3, arranged one above the other in a known manner, are made of a suitable insulating material by means of a sleeve d, e.g. B. stiff paper, combined to form a roller. On the underside, ie at the pole of the lowest element 3, the roller is closed off by an insulating plate e. On this insulating plate e, a metal strip (contact) f is attached in a suitable manner, which is connected to the - pole of the element 2 by an insulated conductor wire g. The whole thing is housed in the sheet metal sleeve h ', which forms the outer casing of the flashlight. The lightbulb is screwed into the top of the sleeve in a known manner, so it is in conductive connection with one pole and on the other with the pole of the element r. The bottom of the sleeve is resilient and is pressed in a known manner when the flashlight is inactive against the batteries. Normally batteries i and 2 are in use and the current path is as follows: bulb h, f (by pressing the bottom of the case), -2, +2, -i, + i, bulb. If the reserve element 3 is to be switched on, the insulating plate e with the metal strip f is torn off. When the bottom is pressed in, the current path results: pear ,. H@. -3, -f-3, -2, -I-2, -i. -I- i. Pear.

Fig. 10 shows an analogous possibility of switching the elements i and 2 or, after removing the insulating plate e with the metal strip f, also the connection of the element 3 by means of a displaceable in a slot in the lamp sleeve, contact button that can be operated in the usual way with the thumb of the right hand (not shown) with sheet metal strip h and contact spring g; what the latter when pushing up of the button or sheet metal strip h rests against the metal strip f and means of the insulated wire d the current path lamp, sleeve, contact button, strip h, contact spring g, metal strip f, insulated wire g ', -2, -E-2, -i, + i, lamp closes. To Tearing off the insulating plate with metal strips and insulated wire will do that too Reserve element 3 activated by direct current connection g, -3.

FIG. Ii uses a diagram to show the compensation of the voltage drop by switching on the reserve element.

The plug contact c is used in the batteries coming on the market held by a paper loop at the top of the battery and when used exposed by tearing the paper loop.

The implementation of the basic idea of the invention can of course be different Constructions to which all fall within the scope of the invention.

Claims (1)

PATENT CLAIM: Battery for flashlights with one or more reserve elements, which are switched on after a voltage drop in the battery, characterized in that that with a pole of the reserve element or the pole of the reserve element preceding Element is connected to an insulated plug contact on the inside, which is on the contact spring of the battery terminal of the same name can be plugged in or removed from the same can, and that the activation of the reserve element by attaching or removing of the plug contact is made from the battery terminal of the same name.